Safety mast

ABSTRACT

The safety mast is a device for reducing the immediate or close range dispersement of electromagnetic radiation to the operator from cellular phones, walky-talky or other such radio transmittion equipment. This invention utilize multiple sections that are design to telescope into another section the sections can be extended or retracted for convenient transport, at one end of the sections is a compartment or cavity and at the opposite end of the telescoping sections or mast is a main section or bracket&#39; comprising at least one section. 
     The antenna and its transmitter components are put in the compartment and the controls for unit are put on the main section, controls communicate with transmitter by fiber optics once the safety mast sections are extended puts the antenna and transmitter at a distance from the operator thus reducing radiation to the operator.

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates to the safety of people using cellular phones and other relative equipment by placing the radio transmitter and it's antenna a distance away from the manual controls of the unit thus reducing radiation emissions asspecilly to the hands and head while in use. And after use return the transmitter and it's antenna to original position near it's controls so to be compact for convenient transport.

2. Prior Art

Radio reception and transmittion was known for decades human have been fascinated with wireless communication and it's convients to be able to send message over great distance with out wire. However it has only been in our recent past that human produced telephones small enough to fit in a packet, sustain long distance, and with internet capability. Walkey talkey, transporter, cellular and other such communication devices eimit electromagnetic radiation. The humans that are in close approximation of these devices in some cases

in close approximation of these devices in some cases humans may be expose to radiation for long amount of time, for example some people can talk on a cellphone ten hours a day if not more. Typically a highpercentge of this radiation travel thought the head of the human body, even with accessories such as earphones sets are used even your smartphone is on speaker mode or voice dialing and the phone is not in the same environment as the head your hands may be expose to high frequency electromagnetic radiation or waves. At this time there is no individual confirmation on the negative effects on cellular phone use how_ever study on this subject are still being done. There is always a need for a method of reducing the potential danger of these electronic devices.

SUMMARY OF THE INVENTION

This invention satisfies the above needs A novel SAFETY MAST unit that would reduce the concentration of cellphones and other such devices radiation from frequency transmittion of the present invention uses amast to seperate the transmitter portion from the control of the cellular phone and other such devices or equipment. All manually operated control would be put at a distance from its transmitter and antenna that would be place in the cavity of the mast. The mast is mounted on the back of the cellphone for example the portion that would be mounted on the phone is called the bracket, the mast is primarily comprise of mobile section that telescope in to each other the cavity would usually be the top or the last of the section namely the safety mast section would be in a contracted position for convenient transport. Once the is fully extended thus reducing radiation from its operator when the phone is uses, because the transmitter and its antenna will be away from operator. The transmitter can sell operate while the mast is in compact mode, however for better protection the operator must fully extend the mast. Fiber optic and optic would be the basic way the transmitter and controls would communicate with each other

there are other ways if needed. Power supplies for transmitter

usually would be a battery compartment in cavity

however the transmitter have

other source as well to receive power.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other features, aspects and advantages of the present invention may be understood with reference to the' following drawing wherein;

FIG. 1 shows a sectional front view of a preferred embodiment of the invention;

FIG. 2 shows a side view of the preferred embodiment in FIG. 1

FIG. 3 shows sectional front view of preferred embodiment in FIG. 1

FIG. 4 shows a side view of the preferred embodiment in FIG. 1

FIG. 5 shows front view of subject unit with preferred embodiment attached in FIG. 1

FIG. 6 show sectional side view of the subject unit with preferred embodiment in FIG. 1

FIG. 7 shows sectional front view of another preferred embodiment on the invention;

FIG. 8 shows a side view of the preferred embodiment in FIG. 7

FIG. 9 shows a sectional front view of preferred embodiment of the present invention in FIG. 7

FIG. 10 shows a side view of the preferred embodiment in FIG. 7

FIG. 11 shows a sectional side view of another preferred embodiment of the invention;

FIG. 12 shows a section front view of the preferred embodiment

on the invention attached to subject unit or cellular phone in FIG. 11

FIG. 13 shows a side view of the preferred embodiment of the invention in FIG. 13

FIG. 14 shows a sectional front view another preferred embodiment on this invention

FIG. 15 shows a sectional side view of

the preferred embodiment in FIG. 14

FIG. 65 shows a sectional front view subject attached to the preferred embodiment, in FIG. 14

FIG. 16 shows a sectional front view of another preferred embodiment on the invention,

FIG. 17 shows a sectional side view of the preferred embodiment in FIG. 16

FIG. 188 shows a front sectional view of subject attachment to preferred embodiment, in FIG. 16

DETAILED DESCRIPTION OF THE INVENTION

The present invention is directed to distance separation of transmitter of electromagnetic broadcast radiation from its operator and manual controls of such equipment by use of multiple section that would extend the transmitter from its manual controls. This done by placing the transmitter in one compartment and the controls in another compartment that would be

separated by the sections

that can telescope into each if needed for convenience.

This first embodiment of the present invention can be characterized as a transmitter isolator. As shown in FIG. 1, this embodiment utilizes a sectional arrangement to accomplish this. Referring to FIG. 1, there is shown an inventive radiation reducing unit in asspecially reducing this radiation concentration to the head and hands. This device comprises hand grip 1. cavity 2. mast sections 4. transmitter 3. bracket 5. mounting points 6. light signal emtter and receiver at base of cavity 7. light signal emitter and receiver 8. antenna area 9.

In another embodiment that extends its transmitter and antenna away from its operator and its controls is called the double safety mast this safety mast is design for low wind resistance for high wind conditions. This present invention utilizer a arrangement of individual mast. Each mast is comprised of multiple section that telescope each other, the cavity is supported equally between both mast.

The cavity of the double would contain the cellphones transmitter and antenna. Once the is extended will reduce the emission from the cellular phone control and its operator. After use the double is retracted for convenient transport, the double mast is so design once extended can be defected by hand to horizontal position for added convenience.

Once the operator is finished with cellphone the double mast is then vertically aline and depress by its hand grip back in to its bracket for convenient transport.

A third preferred embodiment of the present invention is referred to as a spring loaded safety mast. The spring loaded safety mast has a elongated spring wich is normally the length of the extended mast extending from the bottom of the bracket to the base of the cavity. The spring is inclosed in the sectional tubular configuration of the mast that can telescope in to each other. The tubular configuration keeps the spring in line while being compressed once the mast is retracted, when retracted by hand it can be extended automatically by meins of a release button. The release button is attached to the bracket and the other portion of the button would rest in a notch area on the mast this would prevent the mast from extending unless the button is depressed. Once depressed the spring extends the safety mast and the transmitter from its controls thus reducing radiation from operator, the button is individually spring loaded so that it can return the catch to same notch area once the mast is retracted. The bracket that portion attached to the controls communicate with its transmitter using optical system.

A forth preferred embodiment of the invention is referred to as a power safety mast. The power safety mast utilizes an electromechanical arrangement to extend its cavity with its transmitter and antenna away from controls and cellphone operator thus reducing radiation to both

this invention consist of multiple sections that telescope into each other at one end of the sections is the cavity at the other end is the bracket, the cavity would contain the transmitter and its antenna, the bracket would be attach to the controls of the cellular phone, the bracket of the power safety mast is equip with a reversible electric motor. Attached to the rotor of the electric motor is a spool of flexible shaft that is attached the base of the cavity, the switch would normaly be in the off position, when the switch is depressed extend mode the mast electric motor drives the flexible shaft through a guide extending the cavity and its contence away from its controls and its cellular phone operator thus reducing radiation to both. The mast would remain extended ontell the operator depress the retract button thus contracting the mast and cavity more convenient for transport.

FIG. 2 hand grip 1. cavity 2. mast 3. mounting point 4. bracket 5. light signal emitters and receiver system 6. light signal emitter and receiver system 7. conection jack for controls 8. FIG. 3. hand grip 1. mounting points 2. transmitter 3. cavity 7. light emitter and receiver system at bottom of cavity 6. connection jack for control 4. FIG. 4 hand grip 1. mounting points 2. cavity 3. mast 14. bracket 15. FIG. 5 hand grip 1. front view of cellular phone mounted on safety mast. FIG. 6 side view of safety mast in retracted state; mounted on back of cellular phone.

FIG. 14. shows cellular phone mounted on the mast unit fron view mast is now extended mode. hand grip 1. mast 2. FIG. 15 shows side view of invention while in extended mode hand grip 1. mast 2. bracket 3. cellphone 4. FIG. 7 the double safety mast is another invention. hand grip 1. mast sections 2. the double mast base section that is now extended from its bracket 3. bracket 4. mounting points 5. fiber optics material 6. shaft on which the double mast is mounted on

commondate lateral movement 7. cavity 8. control connection jack 9. FIG. 8 shows side view of FIG. 7 in extended-mode

FIG. 14 hand grip 1 antenna 19 transmitter 18 fiber optic lines mounting point 5 cellular phone connection jack 21 reversible electric motor 17 cavity 77 mast 2 bracket 3 flexible shaft 4 spool 16 FIG. 15 hand grip 22 mast 23 flexible shaft 24 bracket 80 cellphone connection jack 26 mounting points 25 cellphone mounting area 50 FIG. 65 cellphone mounted on the preferred embodiment 67 FIG. 16 antenna 38 mast 39 transmitter 36 mounting point 30 bracket 27 fiber optic lines notch area 34 cavity 35 spring for extending mast 37 mast 33 mast release button for the extending 31 lache 40 button return spring 32 connection jack to cellphone 29

FIG. 17 hand grip 41 cavity 42 bracket 43 area were cellphone would be mounted on invention 44 FIG. 188 hand grip 45 sectional front view of cellular phone mounted on preferred invention.

FIG. 2 hand grip 1. cavity 2. mast 3. mounting pointS 4. bracket 5. light signal emitters receiver system 6. light signal emitter 7. conection jack for control 8. FIG. 3. hand grip 1. mounting point 2. transmitter 3. cavity 7.

FIG. 9 shows sectional front view of FIG. 7 FIG. 9 hand grip 1. bracket 2. cavity 3. mounting points 4. FIG. 10 shows sectional side view of the double safety mast invention in contracted mode of FIG. 7 FIG. 11 shows a side sectional view of the double safety mast mounted on the upper portion of a two part cellular phone hand grip 1. double mast 2. mounting point 4. mast base 3. FIG. 12 shows front sectional view of the double mast. mounted on two part cellphone, hand grip 1. mast 2. cellular phone 4. FIG. 13 shows a sectional view of the double mast in retracted mode side view. hand grip 1. bracket 2. cellular phone 3. 

1. The safety mast is a device for reducing the immediate or close range disperse of electromagnetic radiation to the operator from cellular phones walky-talky or other such transmitting equipment. This invention utilize multiple sections that are so design to telescope into another section the sections can be extended or retracted for convenient transport, at one end of the section is a compartment or cavity at the opposite end of telescoping' sections or mast is a main section or bracket' this invention require cellular phones, transmitters or other such devices to be modify with separated controls to be deployed in to the invention' the transmitter component of the unit can be in the compartment and the controls or put on the main section. Once the mast section are extended puts the transmitter at a distances from the operator thus reducing the close range dispersing of radiation to the operator. the main section or bracket comprising at least one section. Transmitter to controls connected through optics fiber optics or such. Antenna is near transmitter in cavity
 2. The safety mast of claim 1, the safety mast comprising of a main section with at least one section or compartment.
 3. The safety mast of claim 1, the antenna is located in or on the compartment near its transmitter in order to further reduce immediate exposure to electromagnetic radiation to operator once the safety mast is extended.
 4. The safety mast of claim 1, the mast sections are extended and retracted by manual method' by placing one hand on the bracket and the other hand the cavity grip pull to extend depress to retract.
 5. The safety mast further variation of said invention utilizing a arrangement of two individual mast. Each mast is comprised of multiple section that telescopes another section the compartment or cavity is equally supported between both mast, at one end of the sections is the comportment at the opposite end of both mast is a main section or bracket, this invention require an existing cellular phones or transmitters to be modify with separated controls; the transmitter and antenna portion of the unit can be put in the compartment and the remote controls and phone indicators is put on the main section. Once both mast that are bridge by the compartment are simultaneity extended puts the transmitter at a distance with its antenna from the operator thus reducing radiation to the human operator; the controls communicate with its transmitter with fiber optic or other such systems. the double mast assembly is attached to base that precede the main section the base is so design joint once extended can be defected by hand to horizontal position for added convenience once the operator is finished with cellular phone the double mast is then depress by on its cavity hand grip in to its main bracket for convenient transport.
 6. The safety mast of claim 5, can be with external antenna or a antenna wherein, the compartment.
 7. The safety mast further variation of said invention for reducing the immediate or close range disperse of electromagnetic radiation to operator from cellular phones walky-talky or other such radio transmitter equipment. This invention utilize multiple section that are design to telescope into another section the sections can be extended by spring action and manually retracted for convenient transport, at one end of the sections is a compartment or cavity at the opposite end of the telescoping section or or cavity at the opposite end of the telescoping sections or mast is a main section or bracket; the transmitter thereof is put wherein compartment the controls is put on the main section the transmitter communicate with its controls with fiber optics. Once the safety mast extended puts the transmitter at a distance from the operator thus reducing radiation to operator. The antenna also extended with transmitter for added radiation reduction. The spring loaded safety mast mast has a elongated spring that is the length of the extended mast extending from the bottom of the bracket to the base of the cavity. The spring is inclosed in a sectional tube configuration of the mast that can telescope into another wherein the the mast assembly, the tube configuration keeps the spring in line while being compressed once the mast is retracted, when by hand it can be extended automatically by a release button, the release button is attached to the bracket and the buttons bolt rest in a notch area on the compartment or cavity, this would prevent the mast from extending unless the button is depressed, thus retracting the bolt out of the notch area on the compartment and the spring tension extends the mast.
 8. The safety mast of claim 7, once the button is depressed release the mast.
 9. The safety mast of claim 7, can be water resistant
 10. A power safety mast utilizes an electromechanical arrangement to extend its cavity with its transmitter and antenna away from controls and cellular phone operator, thus reducing radiation to both. This invention comprising of multiple sections that telescope into another section at one end of the multiple sections is the cavity at the other or opposite end of the sections is a bracket, the cavity would contain the transmitter and its antenna, the bracket would be attached to the controls of the cellular phone the bracket of the power safety mast is equip with a reversible electric motor. Attached to the rotor of the motor is a spool of flexible shaft that is attached to the base of the cavity, the switch would be in the off position when the switch is depressed to extend mode the mast electric motor drives the flexible shaft through a a guide extending the cavity and its components away from its controls and cellular phone operator thus reducing the immediate or close range disperse of electromagnetic radiation to the operator of such transmittion equipment. The safety mast would remain extended only when the operator depress the retract button the section will retract in to the bracket for convenient transport.
 11. The power safety mast of claim 10, utilizes an electromechanical arrangement to extend its mast.
 12. The power safety mast of claim 10, extends its transmitter and antenna away from operator.
 13. The safety mast of claim 1, uses fiber optics and other such methods to communicate between its controls and transmitter.
 14. The safety mast of claim 1, mast individual sections can be shielded as an added safety to further reduce radiation.
 15. The safety mast of claim 1, electromagnetic transmittions is broadcast from cavity or compartment area 